CN105546082A - Differential device - Google Patents

Abstract

A differential device distributively transmitting rotational force of an input member rotatable together with a pinion support portion to paired output shafts includes: paired side gears respectively having an outer peripheral portion including a toothing portion meshing with a pinion and connected to the output shafts and a cover portion covering an outside of at least one side gear and rotating integrally with the input member, even under severe driving conditions, preventing seizure in the portions and degradation of lubricant oil is suppressed. At least one cover portion includes an oil retaining portion covering a back surface of the one side gear in a first predetermined area including an area overlapping the pinion and a lightening portion exposing the back surface in a second predetermined area without overlapping the pinion, as seen in a side view from axially outside of the output shafts.

Description

Differential motion

Technical field

The present invention relates to and the rotating force of input block distributed and passes to the differential motion of a pair output shaft independent of each other, described input block keeps the small gear support that supports small gear and together can rotate with this small gear support, particularly relate to the improvement of the differential motion with a pair side gear and cover portion, wherein, a pair side gear has the teeth portion of the ring-type engaged with small gear at peripheral part and is connected respectively with a pair output shaft, and cover portion covers the outside of at least one side gear and rotates integratedly with input block.

Background technique

In the past, in this differential motion, in order to optimize the lubricity of the sliding contacting part of small gear and input block, being well known that to record at patent documentation 1 circumferentially forming more shallow and narrower oil groove on input block inner peripheral surface.

Patent documentation 1: Japanese Patent No. 4803871 publication

Summary of the invention

But in the tank structure of above-mentioned differential motion in the past, owing to can not assembling efficiently at the periphery of small gear, storing a large amount of lubricant oil, therefore, especially under the harsh operational situation as small gear High Rotation Speed, to the slide part of small gear or the lubricant oil that supplies with the engaging piece of side gear likely not enough.

In that case, if by whole of the outer side covers side gear back side of cover portion gear from the side, lubricant oil is enclosed in the confined space that surrounded by cover portion and input block, then become the state continuing to ensure that lubricity to small gear or its periphery supply lubricant oil, but then, portion is emptied owing to enclosing a certain amount of lubricant oil and do not formed in cover portion in above-mentioned confined space, therefore correspondingly the overall weight of differential motion increases, and the lubricant oil likely producing this confined space exchanges and cools the problems such as insufficient, easy deterioration.

The present invention completes in view of this kind of situation, its object is to provide a kind of described differential motion that can solve the problem.

In order to reach above-mentioned purpose, the rotating force of input block distributes and passes to a pair output shaft independent of each other by differential motion involved in the present invention, described input block keeps the small gear support to small gear supports also together can rotate with this small gear support, this differential motion has: a pair side gear, they have the teeth portion of the ring-type engaged with described small gear at peripheral part, and this pair side gear is connected with described a pair output shaft respectively; And cover portion, it covers the outside of at least one side gear in these two side gears, and rotate integratedly with described input block, in this differential motion, the described cover portion of at least one has: oily holding part, it, when the side-looking carrying out observing from the axis outside of described output shaft is observed, is positioned at the first regulation region comprising the region overlapping with described small gear, and covers the back side of described side gear; And empty portion, it is positioned at the second not overlapping with described small gear regulation region, and the back side of described side gear is exposed.(this is fisrt feature.)

Be preferably, at least one cover portion described links at described oily holding part place and described input block.(this is second feature.)

Be preferably, described a pair side gear has the axle portion be connected respectively with described a pair output shaft integratedly, and at least one cover portion described has: shaft sleeve part, and it is in the described axle portion concentrically surrounding described side gear; And link arm, its in the circumference of described input block with described oily retaining part from and radial direction along this input block extend, and to link between described shaft sleeve part and described input block.(this is third feature.)

Be preferably, at least one cover portion described has oily lead-in chamfered at the described peripheral part emptying portion, and this oily lead-in chamfered can guide lubricant oil to flow into the inner side of this input block when described input block rotates.(this is fourth feature.)

According to fisrt feature, owing to having the oily holding part at the back side covering side gear at least one cover portion adjacent with the outside of at least one side gear comprises the region overlapping with small gear the first regulation region when the side-looking carrying out observing from the axis of output shaft outside is observed, therefore, can easily the lubricant oil to radial outside movement be wanted to remain on small gear and periphery thereof the centrifugal force of the rotation due to input block, thus, even if under harsh operational situation as small gear High Rotation Speed etc., due to fully lubricant oil can be supplied to the slide part of small gear with the engaging piece of side gear, therefore, it is possible to effectively prevent the burn of described slide part or engaging piece.And, due to have in the second regulation region that at least one cover portion is not overlapping with small gear when described side-looking is observed the back side of side gear is exposed empty portion, therefore, lubricant oil can be made to pass through this empty portion and circulate inside and outside input block, moderately can exchange with cutting oil thus effectively prevent oil deterioration.Further, due to not only without the need to enclosing a large amount of lubricant oil in input block, also cover portion own wt is correspondingly alleviated, therefore, it is possible to contribute to the lightweight of differential motion on the whole with the formation emptying portion.

And especially according to second feature, because cover portion links at described oily holding part place and input block, therefore, in the space wanting the lubricant oil to radial outside movement to be more easily stranded in be covered by oily holding part and input block due to centrifugal force when input block rotates, thus more easily lubricant oil can be held in small gear and periphery thereof.

And especially according to third feature, side gear has the axle portion be connected respectively with output shaft integratedly, and the cover portion with oily holding part has shaft sleeve part and links arm, described shaft sleeve part is in the axle portion concentrically surrounding side gear, described link arm in the circumference of input block with oily retaining part from and extend on the radial direction of input block, and between connecting axial sleeve portion and input block, therefore, the strength of connection of cover portion relative to input block can be improved, and improve the rigid in the cover portion self of supporting the side gear back side, also enhance the supporting rigidity to side gear.

And especially according to fourth feature, cover portion has oily lead-in chamfered at the described peripheral part emptying portion, this oily lead-in chamfered can guide lubricant oil to flow into the inner side of input block when input block rotates, therefore, lubricant oil can be made outside cover portion, to flow to inner side swimmingly, described lubrication effect can be improved further.

Accompanying drawing explanation

Fig. 1 is the longitudinal section (sectional view along the 1-1 line in Fig. 2) of differential motion involved by an embodiment of the invention and periphery thereof.

Fig. 2 is the side view (sectional view along the 2-2 line in a Fig. 1) part for described differential motion cut open.

Fig. 3 is the figure of the variation of the input block that described differential motion is shown, (A) illustrate that joint two same diameter circular arcs are to form the example of the inner peripheral surface of input block, (B) illustrates that the inner peripheral surface by input block is formed as the example of elliptical shape.

That Fig. 4 is the variation in the cover portion that described differential motion is shown, corresponding with Fig. 2 side view.

Fig. 5 is the figure of other variation that described differential motion is shown, (A) example arranging packing ring retention groove in cover portion is shown, (B) illustrate that the teeth portion back side at side gear arranges the example of packing ring retention groove, (C) illustrate to be located by the protuberance of cover portion inner side surface and keep packing ring and eliminate the example of packing ring retention groove, (D) illustrates and makes the intermediate portion of pinion shaft be path and make the intermediate wall of side gear near the example of pinion shaft side.

Fig. 6 is the specification figure of an example of the assembling procedure that described differential motion is shown.

That Fig. 7 is the variation of the small gear support that described differential motion is shown, corresponding with Fig. 1 partial sectional view.

Fig. 8 is the chart of the setting example comparing the differential motion involved by present embodiment and differential motion in the past, (A) relation of the diameter of pinion shaft and the loading point length of small gear is shown, (B) relation of the gear ratio of side gear and small gear and the pitch cone distance of small gear is shown, (C) illustrates the relation of the axial width of described gear ratio and differential motion.

Fig. 9 is that the side gear of described differential motion and the variation in cover portion are shown, corresponding with Fig. 1 partial sectional view.

That Figure 10 is other variation in the cover portion that described differential motion is shown, corresponding with Fig. 2 and Fig. 4 side view.

Label declaration

A: output shaft; C, C ': cover portion; Cb: shaft sleeve part; Cs: sidewall portion; D: differential motion; I: input block; P: small gear; PS: as the pinion shaft of small gear support; PS ': as the supporting axle portion of small gear support; S: side gear; Sj: axle portion; Sg: teeth portion; Sw: intermediate wall; F: oily lead-in chamfered; 7: oily holding part; 8: empty portion; 9: link arm.

Embodiment

With reference to accompanying drawing, embodiments of the present invention are described.

First, in fig. 1 and 2, differential motion D is used for by being distributed and pass to the pairing left and right output shaft A be connected with pairing left and right axletree by the rotary driving force come from motor (not shown) transmission being equipped on automobile, thus this left and right axletree is driven while the differential rotation allowing this left and right axletree, this differential motion D is contained, be supported on and be such as fixed in the gearbox 1 of rear vehicle central authorities.

This differential motion D has: multiple small gear P; Pinion shaft PS, it is supported by these small gears P as rotatable small gear support; The input block I of short cylinder shape, it supports pinion shaft PS in the mode that jointly can rotate with this pinion shaft PS; Pairing left and right side gear S, they engage with small gear P from the left and right sides of small gear P and are connected with pairing left and right output shaft A respectively; And pairing left and right cover portion C, C ', they cover the outside of these two side gear S and rotate integratedly with input block I, by input block I and cover portion C, C ' form differential casing DC.

And, show in the present embodiment make small gear P be two, the bar-shaped and device that is that at its two end part place, two small gear P are supported respectively of the straight line that makes the pinion shaft PS as small gear support be formed as extending along diameter line of input block I, but also small gear P can be set to more than three.In that case, make pinion shaft PS to be formed as with the small gear P of more than three accordingly from the spin axis L of input block I to three directions with top set and the crossed rodlike (being such as crosswise when small gear P is four) radially extended, and support small gear P respectively at its each terminal part.

Further, small gear P also can be made as illustrated example directly chimeric with pinion shaft PS, or the bearing components such as bearing sleeve (not shown) also can be made to get involved.And pinion shaft PS can be the shaft-like that length range inner diameter is identical as illustrated example, or it also can be the shaft-like of band ladder.

The bearing 2 of described differential casing DC through left and right is rotatably freely supported on gearbox 1.And to be formed on gearbox 1 and to be chimericly inserted with between the inner circumferential of the through hole 1a of each output shaft A and the periphery of each output shaft A, get involved the annular seal member 3 be provided with sealing around here.And be provided with the food tray (not shown) of the lubricant oil of storage established amount to its inner space in the bottom faces of gearbox 1, by the rotation of rotary part material beyond differential casing DC, the periphery to differential motion D disperses this lubricant oil, thereby, it is possible to lubrication is present in the inside and outside mechanical linkage part of differential casing DC.

The peripheral part of input block I is provided with the input teeth portion Ig as whole deceleration driven gear, and this input teeth portion Ig engages with the actuation gear (not shown) driven by the dynamic rotation of motor.In addition, this input teeth portion Ig is formed directly into whole lateral extent (i.e. whole axial width) at the outer circumferential face of input block I in the present embodiment, but this input teeth portion Ig also can be made to be formed as less than input block I width, or can with input block I split formed and to be fixed on the peripheral part of input block I afterwards.

And small gear P and side gear S is formed as bevel gear in the present embodiment, and the entirety of the teeth portion comprising these gears is formed by plastic workings such as various forgings.Therefore, not by the restriction in the machining when teeth portion of these small gears P and side gear S being carried out to cutting, can with optional tooth number than forming teeth portion accurately.In addition, other gears can be adopted to replace described bevel gear, such as, side gear S can be made to be face gear and make small gear P be spur wheel or helical gear.

And described a pair side gear S has: cylindric axle portion Sj, its respectively with the inner end spline fitted of a pair output shaft A and being connected; Circular teeth portion Sg, its be positioned at from this axle portion Sj outside the radial direction of input block I away from position and engage with small gear P; And intermediate wall Sw, it is formed as the flat ring flat-plate shape vertical with the axis L of output shaft A and integratedly between coupling shaft portion Sj and teeth portion Sg.

This intermediate wall Sw is formed as: the width t1 of its radial direction is larger than the maximum diameter d 1 of small gear P, and intermediate wall Sw is at output shaft A thickest t2 axially less than the effective diameter d2 of pinion shaft PS (with reference to Fig. 1).Thus, as described later, the fully large footpath of side gear S can be made the number N of teeth s of side gear S can be set as fully being greater than the number N of teeth p of small gear P, and side gear S can be made at the axially abundant thin-walled property of output shaft A.

And described a pair cover portion C, C ' in a side C and input block I split ground formed and be combined with input block I in the mode that can load and unload by bolt b, such as, but also can use the various engagement means except engagement thread, welding means and riveted joint means are as this engagement means.And another cover portion C ' and input block I form.In addition, also can make described another cover portion C ' identically with a described cover portion C with input block I split formed, and pass through bolt b or engagement means is in addition combined with input block I.

And each cover portion C, C ' have: cylindric shaft sleeve part Cb, it is the axle portion Sj of concentrically encirclement side gear S and is fitted together to supporting for rotatable; And the sidewall portion Cs of tabular, it is connected in the axial inner ends of shaft sleeve part Cb integratedly, and make outer side surface be the tabular surface vertical with the spin axis L of input block I, this cover portion C, C ' sidewall portion Cs be configured in the scope being axially accommodated in input block I (namely input teeth portion Ig) of output shaft A.Thus, inhibit cover portion C, C ' sidewall portion Cs more protruding outside to spin axis than the end face of input block I, be therefore conducive to realizing differential motion D in output shaft narrowing axially.

Further, the back side of at least one party in the intermediate wall Sw of side gear S and teeth portion Sg via packing ring W in rotatable mode by this cover portion C, C ' the inner side surface supporting of sidewall portion Cs.In addition, also can omit such packing ring W, directly the back side of at least one party in the intermediate wall Sw of side gear S and teeth portion Sg be supported in rotatable mode by the inner side surface of described sidewall portion Cs.Further, the axle portion Sj of side gear S also can be supported on cover portion C, C via bearing ' shaft sleeve part Cb.

In addition, input block I within it side face Ii surround side gear S close under the state of the peripheral part of side gear S at complete cycle.And, as shown in Figure 2, in the inner peripheral surface Ii of input block I, be especially positioned at the regulation inner peripheral portion Iia of periphery of small gear P to be formed as concavity than other inner peripheral portions further from the mode of the spin axis L of input block I, thus form oily reservoir.Therefore, in this oily reservoir, effectively assemble due to the centrifugal force that can produce by being rotated by input block I, lubrication oil, and efficiently a large amount of lubricant oil being gathered in this can be supplied to small gear P and periphery thereof, therefore, even if when the harsh operational situation etc. that small gear P High Rotation Speed is such, also can supply sufficient lubricant oil to the engaging piece of the slide part of small gear P and small gear P and side gear S, thus effectively prevent the burn of described slide part or engaging piece.

Especially in differential motion D as the present embodiment, due to can make as described above side gear S (and then, differential casing DC) fully large footpath, therefore, it is possible to efficiently a large amount of lubricant oil to be gathered in the regulation inner peripheral portion Iia (oily reservoir) of input block I by large centrifugal force, therefore, along with the large footpath of side gear S, even if small gear P High Rotation Speed, its burn preventing effectiveness also can be reached significantly.

In the present embodiment, in the cross section that the spin axis L with input block I is vertical, the regulation inner peripheral portion Iia as described oily reservoir is formed as the large arc-shaped of other inner peripheral portions of ratio of curvature.And, in present embodiment (Fig. 2), this regulation inner peripheral portion Iia is formed as the first less circular arc of diameter that the spin axis L of center O ' than input block I put to small gear P lateral deviation in described cross section, and other inner peripheral portions described are formed as center O in described cross section is positioned on the spin axis L of input block I, that diameter is larger than described first circular arc the second circular arc.Thus, even if when this regulation inner peripheral portion Iia (oily reservoir) is set in region narrower in the circumferential, formed enough dark due to this regulation inner peripheral portion Iia can be made in the side of the spin axis L away from input block I, therefore, also enough lubricant oil can be kept at this.And, for this regulation inner peripheral portion Iia, even if also easily this part can be processed on the inner peripheral surface Ii of input block I by standard equipment such as lathes, thus achieve cost savings.

And the variation of the inner circumferential mode of input block I shown in Figure 3.Namely, in (A) of Fig. 3, in the cross section that the spin axis L with input block I is vertical, the inner peripheral surface Ii of input block I is to engage center O, and " mode of multiple (in illustrated example the being two) circular arc of the same diameter of putting to small gear P lateral deviation than spin axis L is formed, using the circumferential middle body of this each circular arc as described regulation inner peripheral portion Iia.According to the inner circumferential mode of this input block I, just easily regulation inner peripheral portion Iia (oily reservoir) can not be processed on the inner peripheral surface Ii of input block I by means of only standard equipment such as lathes, and due to described multiple circular arc be same diameter, therefore can also share the machining tool such as drill bit for the formation of arc surface, thus realize further cost savings.

And in (B) of Fig. 3, in the cross section that the spin axis L with input block I is vertical, the inner peripheral surface Ii of input block I is formed as the major axis elliptical shape consistent with the axis of pinion shaft PS, using the end of the major axis side of this ellipse as described regulation inner peripheral portion Iia.

In addition, for the inner circumferential mode of input block I, except the mode of execution shown in Fig. 2 and Fig. 3, also consider there is various variation, such as can be formed as joint a pair semi-circle and a pair short lines and the oblong shape (not shown) formed in described cross section, in that case, using the circumferential middle body of semi-circle as described regulation inner peripheral portion Iia.Further, in said embodiment, continuous smoothly between described regulation inner peripheral portion Iia and other inner peripheral portions, but also can form ladder here.

Below the pinion shaft PS as small gear support is described to the mounting structure on input block I.For this pinion shaft PS, its two end part are supported on input block I through fixing body T link respectively, and this fixing body T is formed the retaining hole Th (with reference to Fig. 1) that can be fitted together to, keep the end of pinion shaft PS at complete cycle.And on the inner peripheral surface Ii of input block I, be arranged with the mounting groove Ia that cross section is U-shaped, the side by cover portion C side of this mounting groove Ia on this input block I has opening portion and axially extends at output shaft A, in this mounting groove Ia, be inserted with rectangular-shaped described fixing body T from opening portion described in it.For this fixing body T, under the state that it is inserted in the mounting groove Ia of input block I, be fixed in input block I by a described cover portion C being anchored on input block I with bolt b.

According to the mounting structure of pinion shaft PS as above to input block I, due to the fixing body T by carrying out the chimeric bulk kept at complete cycle to the end of pinion shaft PS, can easily and securely pinion shaft PS is fixedly linked on the mounting groove Ia of input block I, therefore form without the need to special on input block I the through hole being used for pinion shaft PS and supporting, and can not assembling operation be reduced, link while pinion shaft PS high strength can be made and be supported on input block I.And in the present embodiment, achieved by the anti-avulsion fixed unit that makes the cover portion C in the outside of covering side gear S double as to prevent fixing body T from coming off and simplify the structure.

Like this, at the two end part of pinion shaft PS by fixing body T under linking the state being supported on input block I, between the exterior edge face (i.e. end face outside the radial direction of input block I) and the inner peripheral surface Ii (i.e. described regulation inner peripheral portion Iia) of input block I of the small gear P rotatably supported by this pinion shaft PS, be formed with the gap 10 of radial direction.Therefore, lubricant oil is easily accumulated in this gap 10, therefore to preventing in the face of the end of small gear P in this gap 10 and the burn of its periphery are effective.

In addition, the sidewall portion Cs of a described cover portion C has the oily holding part 7 at the back side covering side gear S, this oily holding part 7 (observing in fig. 2) when the side-looking observed from the axially outside of output shaft A is observed is positioned at the first regulation region comprising the region overlapping with small gear P, in addition, when described side-looking is observed, specify in region not overlapping with small gear P second, the sidewall portion Cs of a described cover portion C is the structure having the portion of emptying 8 concurrently and link arm 9, the described portion 8 that empties makes the back side of side gear S be exposed to outside differential casing DC, described link arm 9 leaves described oily holding part 7 and extends on the radial direction of input block I in the circumference of input block I, and between connecting axial sleeve portion Cb and input block I.In other words, discoideus sidewall portion Cs is essentially about cover portion C, empty portion 8 described in nick shaped by forming multiple being formed as thereon in the circumferential at spaced intervals, this sidewall portion Cs becomes and clips this in the circumferential and empty portion 8, be formed with oily holding part 7 and be formed at its opposite side and link the mode of structure of arm 9 in its side.

And in the present embodiment, described empty portion 8 be formed as the side, periphery of sidewall portion Cs open and side-looking is observed time roughly along the nick shaped that the direction vertical with pinion shaft PS extends, thus, the oily holding part 7 adjacent with emptying portion 8 is formed long in the circumferential as far as possible, thus the oil that improve the oily holding part 7 be next described keeps effect.

For the mode of structure of the sidewall portion Cs of such cover portion C, particularly by described oily holding part 7, the centrifugal force that can easily the rotation because of input block I be produced and want the lubricant oil to radial outside movement to remain on small gear P and periphery place thereof.Therefore, storage effect is concentrated to complement each other ground with the oil of centrifugal force that utilizes of the regulation inner peripheral portion Iia (oily reservoir) of foregoing input block I, more efficiently lubricant oil can be supplied to small gear P and periphery thereof, therefore, even if when the harsh Yun Zhuan Zhuan Condition etc. as small gear P High Rotation Speed, also more efficiently can supply lubricant oil to the slide part of small gear P and the engaging piece of small gear P and side gear S, more effectively can prevent the burn of this slide part or engaging piece.

In addition, empty portion 8 described in being had by cover portion C, lubricant oil can be made to empty portion 8 by this and circulate inside and outside differential casing DC, therefore, lubricant oil is moderately exchanged and is cooled, thus effectively prevent oil deterioration.Further, except not needing to enclose a large amount of lubricant oil in differential casing DC, cover portion C self also correspondingly lightens with the formation emptying portion 8, therefore correspondingly achieves the lightweight of differential motion D.

In addition, described in empty portion 8 and be formed as the open nick shaped in the side, periphery of sidewall portion Cs in the present embodiment, but it is nonopen through poroid also can be formed as its side, periphery.And, in the present embodiment, the sidewall portion Cs only defining the portion of emptying 8 and another cover portion C ' at the sidewall portion Cs of a cover portion C is formed as not having the discoideus of portion's of emptying (therefore covering the intermediate wall Sw of side gear S and the whole face, the back side of teeth portion Sg), but also can be formed as also being formed on the sidewall portion Cs of described another cover portion C ' emptying portion 8, in that case, oily holding part 7 and link arm 9 form with input block I.

And identical with link arm 9, the oily holding part 7 of present embodiment is across extending between the shaft sleeve part Cb of cover portion C and input block I and linking therebetween.And, cover portion C links at oily holding part 7 place and input block I, thus want the lubricant oil to radial outside movement to be more easily stranded in the space covered by oily holding part 7 and input block I due to centrifugal force when input block I rotates, easily lubricant oil is held in small gear P and periphery place thereof.

In addition, using oily holding part 7 with to link the structure that links with input block I respectively of arm 9 identical with foregoing teachings as the connecting arrangement of cover portion C and input block I.Namely, for oily holding part 7 and link arm 9, both and input block I can be made to form, and when split is formed, be combined with input block I by the screw thread means such as bolt b or other various engagement means (such as welding means, riveted joint means etc.).

And if as present embodiment, cover portion C adopts to be had and oily holding part 7 split and the structure of link arm 9 between connecting axial sleeve portion Cb and input block I integratedly, then correspondingly can improve the strength of connection of cover portion C relative to input block I, and improve the rigid of cover portion C self at the back side of supporting side gear S, also provide enhanced the supporting rigidity to side gear S.In addition, in cover portion C, link arm 9 optional, also can implement to omit other mode of executions linking arm 9.Further, especially when cover portion C has link arm 9, other mode of executions that oily holding part 7 does not link with input block I can also be implemented.

In addition, the cover portion C of present embodiment has at the peripheral portion place emptying portion 8 and lubricant oil can be guided to the oily lead-in chamfered f of side inflow in input block I when input block I rotates.When observing from the circumferential crosscut oil holding part 7 along input block I with the cross section (partial sectional view with reference to Fig. 2) linking arm 9, the inclined-plane that this oily lead-in chamfered f is tilted by the circumferential center side that the outer side surface respective with linking arm 9 from oily holding part 7 is respective with linking arm 9 towards inner side surface to oily holding part 7 is formed.And, by this oily lead-in chamfered f, lubricant oil can be made outside cover portion C, to flow to inner side swimmingly, thus improve the lubrication effect to small gear P etc.

Further, for the mode in the portion that empties 8 (and then, oily holding part 7 and link arm 9) in cover portion C, consider there is various variation, be not limited to the mode of execution of Fig. 2.Such as, as in the variation shown in Fig. 4, oily holding part 7 and linking in each comfortable radiation direction of arm 9 extends (namely as a whole in crosswise), emptying portion 8, to be formed as central angle be roughly 90 ° fan-shaped.

In addition, other variation of cover portion C shown in Figure 10.In this variation, when the side-looking observed from the axially outside of output shaft A is observed (observing from the direction identical with Fig. 2, Fig. 4), cover portion C has: oily holding part 7, it is formed in the mode at the back side covering side gear S in the region overlapping with small gear P and neighboring area thereof on a large scale, and entirety is formed as larger width equably in the circumference of input block I; And linking arm 9, it extends from the both sides of oily holding part 7 and links with input block I outside the radial direction of input block I, and width is less in the circumferential direction for described link arm 9.In this variation, link arm 9 by being formed with minimal little width required in intensity, and form the enough large portion that empties 8 between link arm 9 and oily holding part 7.Namely, in this variation, when the side-looking carrying out observing from the axis outside of output shaft A is observed (observing from the direction identical with Fig. 2, Fig. 4), cover portion C has: oily holding part 7, and it is formed in the mode covering the back side of side gear S in the region overlapping with small gear P and neighboring area, i.e. the first regulation region on a large scale; And empty portion 8, it is arranged at oily holding part 7 and links between arm 9 and in the second not overlapping with small gear P regulation region, the back side of side gear S to be exposed to outside differential casing DC when described side-looking is observed.According to the structure of such cover portion C, more easily lubricant oil can be held in small gear P and periphery thereof, therefore, even if when obtaining harsh Yun Zhuan Zhuan Condition etc. as small gear P High Rotation Speed, also more effectively can prevent the burn of the slide part of small gear P and the engaging piece of small gear P and side gear S, and differential motion D lightweight more can be made.

And, (being whole in the present embodiment) at least partially of the intermediate wall Sw of side gear S is configured to thinner wall section Swt, and this thinner wall section Swt is formed axially retreating more to the inside than the back side of teeth portion Sg of output shaft A (with reference to Fig. 1) by making the outer side surface of intermediate wall Sw.On the other hand, cover portion C, C ' sidewall portion Cs (especially, mention the sidewall portion Cs of cover portion C, be oily holding part 7 and link arm 9) there is the inner side surface outer circumferential side wall portion Cso opposed with the back side of the teeth portion Sg of side gear S and the inner side surface inner circumferential side wall portion Csi opposed with the back side of the intermediate wall Sw of side gear S integratedly.And (being whole in the present embodiment) at least partially of this inner circumferential side wall portion Csi is formed as thicker than outer circumferential side wall portion Cso on the direction of spin axis, and outstanding to described thinner wall section Swt side.

According to these structures, the thinner wall section Swt being configured to retreat to axial inner side than the back side of teeth portion Sg at least partially of the intermediate wall Sw of so large rigidity can not be needed compared with the teeth portion Sg of side gear S, cover portion C, C can be made accordingly with this thinner wall section Swt ' inner circumferential side wall portion Csi wall thickening and to axially not protruding outside, thus the supporting rigidity of cover portion C to the thin meat intermediate wall Sw of side gear S can be improved fully.Thus, ensure that the rigid and being conducive to of side gear S and differential casing DC makes differential motion D in the axially fully narrowing of output shaft A.

And, at the back side of side gear S and cover portion C, C ' opposite of sidewall portion Cs between, get involved and the packing ring W making foregoing can relatively rotatably connect between the two is installed, and in the present embodiment, the packing ring retention groove 6 for this packing ring W being remained on fixed position is formed at the back side of the described thinner wall section Swt of side gear S.Therefore, it is possible to directly support side gear S by packing ring W, thinner wall section Swt that rigidity is lower, the bearing strength to this thinner wall section Swt can be improved.And, by packing ring W storage being held in packing ring retention groove 6, inhibit the size of the axis of the differential motion D caused by the thickness of packing ring W to increase.

Further, for getting involved the back side and cover portion C, C that are arranged on side gear S ' opposite of sidewall portion Cs between packing ring W form is set, consider there is various variation.Such as, in (A) of Fig. 5, cover portion C, C opposed with the thinner wall section Swt of side gear S ' inner side surface form packing ring retention groove 6 and keep packing ring W wherein, therefore, avoid thinner wall section Swt due to packing ring retention groove 6 further thin-walled property.And in (B) of Fig. 5, form packing ring retention groove 6 at the back side of the teeth portion Sg of side gear S and keep packing ring W wherein, therefore, by making offset and improve bearing strength to radial outside (being therefore, close to the position with the engaging piece of small gear P) the load supporting point of side gear S further.

And in (C) of Fig. 5, by making the inner circumferential position of packing ring W and cover portion C, C ' in the outstanding start position to axial inner side to sidewall portion Cs consistent, and the inner side mode of giving prominence to of this sidewall portion Cs is applied to the location of packing ring W.Therefore, even if do not arrange the location maintenance that packing ring retention groove 6 also can carry out packing ring W, thus the intensity reduction caused because forming packing ring retention groove is avoided.

In addition, in (D) of Fig. 5, in the pinion shaft PS that the straight line extended along radiation direction (on diameter line) from the spin axis of input block I is bar-shaped, in the face of the intermediate shaft portion PSm of the thinner wall section Swt of side gear S is formed as less than other shaft portion diameters.And, correspondingly make described thinner wall section Swt to axial inner side back-off offset with making intermediate shaft portion PSm pathization like this, make cover portion C, C ' sidewall portion Cs (especially inner circumferential side wall portion Csi) and this back-off offset correspondingly wall thickening further, thus further increase the supporting rigidity to side gear S.

By making side gear S as previously mentioned, there is the larger intermediate wall Sw of width diametrically, the torque transmission paths of the teeth portion Sg of gear S to output shaft A is elongated diametrically from the side, the decline of gear support intensity may be caused, and in the present embodiment, can the midway of above-mentioned torque transmission paths, in the suitable radial position (with reference to (A) of Fig. 1 and Fig. 5 to (D)) of gear support intensity, suitably configure retaining washer W, therefore, it is possible to effectively suppress the decline of gear support intensity.

Then, the effect of described mode of execution is described.For the differential motion D of present embodiment, when its input block I bears rotating force from power source, when small gear P does not transfer to revolve round the sun around its axis L together with input block I around pinion shaft PS certainly, the side gear S of left and right is by with identical speed rotary actuation, and this driving force is delivered to the output shaft A of left and right equably.Further, when the output shaft A due to automobile turning traveling etc. in left and right produces rotational speed difference, revolved round the sun by small gear P rotation, under the state allowing this differential rotation, from this small gear P, rotary driving force is transmitted to the side gear S of left and right.Identical with the work of known differential motion above.

Next, be described with reference to the manufacture assembling procedure of Fig. 6 to the differential motion D involved by present embodiment.This operation at least comprises operation [1] below to [6].

Operation [1], respectively with respective operation manufacture, prepare to form input block I and cover portion C ' (or combine make respectively parts) and differential carrier phosphor bodies DC ', the cover portion C formed, each side gear S, each small gear P, pinion shaft PS and fixing body T.

Operation [2], as shown in (A) of Fig. 6, embeds a side gear S and is installed in differential carrier phosphor bodies DC '.

Assembling procedure [3], as shown in (B) solid line of Fig. 6, the center hole two end part of pinion shaft PS being fitted together to be supported on small gear P and the retaining hole Th of fixing body T to assemble installation unit U, and temporarily keep this assembled state by fixture (not shown).

Operation [4], as shown in the arrow of Fig. 6 (B) and double dot dash line, installation unit U is loaded in differential carrier phosphor bodies DC ', now fixing body T to be inserted in the mounting groove Ia of input block I and each small gear P engage with the teeth portion Sg of a side gear S, thus making installation unit U also be held in input block I from described fixture disengaging temporarily.

Operation [5], as shown in (C) of Fig. 6, makes another side gear S and the outer side superimposed of installation unit U being temporarily held in input block I, and each small gear P is engaged with the teeth portion Sg of another side gear S.

Operation [6], as shown in (D) of Fig. 6, cover portion C is overlapped with the back side of another side gear S, and by bolt b, this cover portion C is anchored on input block I, thus between the mounting groove Ia internal surface clamping the fixing body T of installation unit U, be fixed on cover portion C and input block I, thus complete differential motion D.

In above a series of operation, especially in described assembling procedure [3], pinion shaft PS, each small gear P and fixing body T are gathered and blocking thus form installation unit U, this installation unit U is being assembled in advance as sub-assembly, then, fixing body T is inserted the mounting groove Ia of input block I, installation unit U is located and is held in input block I, thereafter, by cover portion C being anchored on input block I, installation unit U is assembled, is fixed on input block I, therefore, it is possible to effectively improve assembling operation efficiency.

And in the differential motion D assembled as described above, its side gear S has: axle portion Sj, and it is connected with output shaft A; And intermediate wall Sw, it is formed as the flat ring flat-plate shape vertical with the axis L of output shaft A, and integratedly between coupling shaft portion Sj and the teeth portion Sg from this axle portion Sj away from side gear outside the radial direction of input block I, in addition, to be formed as its radial direction width t1 larger than the maximum diameter d 1 of small gear P for this intermediate wall Sw.Therefore, side gear S can be made to large footpath abundant relative to small gear P the number N of teeth s of side gear S can be set as fully being greater than the number N of teeth p of small gear P, therefore, the load burden of pinion shaft PS when can alleviate from small gear P to side gear S transmitting torque, thus the path of its effective diameter d2 can be realized, and then realize small gear P in output shaft A narrowing axially.

And, except alleviate as described above pinion shaft PS load burden while, the reaction force acting on side gear S reduces, in addition, the intermediate wall Sw of side gear S or quilt cover sidewall portion, the back side Cs of teeth portion Sg supports, therefore, even if make the intermediate wall Sw thin-walled property of this side gear S, also easily guarantee the rigid needed for side gear S, that is, can guarantee the supporting rigidity of side gear S and make the abundant thin-walled property of side gear intermediate wall Sw.Further, in the present embodiment, the thickest t2 due to side gear intermediate wall Sw be as described above formed as than can the effective diameter d2 of pinion shaft PS of path little, therefore, it is possible to realize the further thin-walled property of side gear intermediate wall Sw.And by making cover sidewall portion Cs be formed as the tabular that outer side surface is the tabular surface vertical with the axis L of output shaft A, also achieve the thin-walled property of this cover sidewall portion Cs self.

These result is, differential motion D can guarantee and the intensity (such as the static twist density of load) of device same degree in the past and maximum torque transfer amount, and as a whole in the axially fully narrowing of output shaft A.Thus, even if for the many transmission system of the restriction in the layout of the periphery of differential motion D, also can difficultly and easily not assemble differential motion D with high-freedom degree, and also rather favourable for the miniaturization of this transmission system.

And, in the present embodiment, for side gear S and small gear P, preferably (namely in the side region more top than line X of (A) of Fig. 8) is set as illustrated: setting the effective diameter of small gear support PS as d2, if when the loading point length of small gear P is d3, meet following relation:

d3≥3.74·d2+20···(1)。

Here the loading point length d3 of small gear P refers to the length of two times from the distance of spin axis L to the bigger diameter end face of a small gear P, such as when a pair small gear P is arranged opposite, the distance between the bigger diameter end face of this pair small gear P and loading point length d3 be (with reference to Fig. 1) quite.

The line X1 shown in (A) of Fig. 8 illustrates the relation of the diameter d 2 of pinion shaft in device in the past and the loading point length d3 of small gear P.By setting loading point length d3 corresponding in online X1 for the diameter d 2 of pinion shaft, the static twist density of load specified can be guaranteed.Relative to this, setting example according to the present embodiment, setting slope and the loading point length d3 of small gear P sufficiently long line X equal with line X1, the diameter d 2 of pinion shaft and the loading point length d3 of small gear P are set in the upper-side area of this line X, therefore, can guarantee with device same degree in the past more than the static twist density of load, make the loading point length long enough of small gear P simultaneously, and differential motion D can be made in the axially fully narrowing of output shaft A.

In addition, be PCD at the pitch cone of small gear P being set to bevel gear apart from (namely from the distance of fan shape center to small gear P outer end forming the fan-shaped small gear P in longitudinal section), if the number of teeth of small gear P is Np, if when the number of teeth of side gear S is Ns, is preferably set to and meets following relation:

Ns/Np≥2···(2)

PCD≥6.17·(Ns/Np)+20···(3)

(namely Fig. 8 (B) than line Y more on the right side and in the region of side more top than line Z).Namely, the line Y of (B) of Fig. 8 illustrates for making differential motion D at the line of the axially gear ratio (Ns/Np) of fully narrowing of output shaft A, when gear ratio (Ns/Np) is set to than this line Y on the right side (when being namely set as more than 2), as shown in (C) of Fig. 8, the effect of narrowing is more obvious.And in (B) of Fig. 8, line Z illustrates the line for obtaining as the in general necessary gear ratio of moment of torsion transmission capacity of four wheeler and the relation of pitch cone distance, is the line that mapping determines toward the design load of device.Thus, by to be included in the relation setting the pitch cone distance of gear ratio (Ns/Np) and small gear than the mode of line Y on the right side and in the region of side more top than line Z, in the differential motion D of present embodiment can guarantee with device same degree in the past more than maximum torque transfer amount while in the axially fully narrowing ((C) with reference to Fig. 8) of output shaft A.

In addition in said embodiment, show the device of the longer pinion shaft PS of use as small gear support, but on the end face that also can be used in the side, large footpath of small gear P as shown in Figure 7 coaxially and the supporting axle portion PS ' combined integratedly forms small gear support.According to this formation, owing to not needing the through hole arranging chimeric pinion shaft PS on small gear P, therefore, it is possible to correspondingly make small gear P path (axial narrowing), differential motion D can be realized in output shaft A axially flattening.Namely, when the through small gear P of pinion shaft PS, need the through hole forming the size corresponding with the diameter of pinion shaft on small gear P, and when making supporting axle portion PS ' integrated with small gear P end face, the diameter d 2 of supporting axle portion PS ' can not be relied on and realize the path (axial narrowing) of small gear P.

And in the present embodiment, between the outer circumferential face and the retaining hole Th inner peripheral surface of fixing body T inserting supporting axle portion PS ' of this supporting axle portion PS ', get involved the bearing sleeve 12 as bearing having permission relative rotation therebetween, this bearing sleeve 12 is inserted between the inner circumferential of the retaining hole Th being arranged on fixing body T and the periphery of supporting axle portion PS ' in especially described assembling procedure [3].Thus, installation unit U has been assembled in interior gathering due to this bearing sleeve 12 can be comprised in described assembling procedure, even if therefore make number of components increase owing to adding this bearing sleeve 12, also the reduction of assembling operation efficiency can be suppressed in inferior limit.In addition, as described bearing, also can be the bearings such as needle bearing.Further, also can omit described bearing, make supporting axle portion PS ' directly chimeric with the retaining hole Th of fixing body T.

Above, embodiments of the present invention are illustrated, but the invention is not restricted to described mode of execution, various design alteration can be carried out in the scope not departing from its purport.

Such as, in said embodiment, all make the back side of the intermediate wall Sw of side gear S retreat to the axial inner side of output shaft A and define thinner wall section Swt, such as, the back side of the intermediate wall Sw of side gear S can not made as shown in Figure 9 to retreat to axial inner side and make the back side of intermediate wall Sw be and the back side of teeth portion Sg tabular surface on the same face yet, in that case, the sidewall portion Cs inner side surface of cover portion C, C ' is also tabular surface that entirety from its inner circumferential side wall portion Csi to outer circumferential side wall portion Cso is same.

And in said embodiment, show input block I and there is input teeth portion Ig integratedly, but also by subsequent installation, the gear ring formed with input block I split can be fixed on input block I.And input block of the present invention can for not having the structure of input teeth portion Ig as above or gear ring, such as can link, link than input block I by the drive portion material (output block of such as planetary gears or reduction gear, the follower etc. of endless drive belt driving mechanism) of upstream side with in power transfer path by making input block I, and input rotary driving force to input block I.

Further, use a pair cover portion C, C is shown in said embodiment ' cover the back side of a pair side gear S respectively, but in the present invention, also only cover portion can be set at the back side of a side gear S.In that case, such as, can arrange in the side not arranging this cover portion the drive portion material being positioned at described upstream side, make drive portion material and input block that side interlock, the link in this cover portion be not set.

Claims (8)

1. a differential motion, the rotating force of input block (I) distributes and passes to a pair output shaft (A) independent of each other by it, described output block (I) keeps the small gear support (PS, PS ') that supports small gear (P) and together can rotate with this small gear support (PS, PS ')

This differential motion has:

A pair side gear (S), they have the teeth portion (Sg) of the ring-type engaged with described small gear (P) at peripheral part, and this pair side gear (S) is connected with described a pair output shaft (A) respectively; And cover portion (C, C '), it covers the outside of at least one side gear (S) in these two side gears (S), and rotates integratedly with described input block (I), and the feature of this differential motion is,

Described at least one, cover portion (C) has: oily holding part (7), it is when the side-looking carrying out observing from the axis outside of described output shaft (A) is observed, be positioned at and comprise first of the region overlapping with described small gear (P) and specify region, and cover the back side of described side gear (S); And empty portion (8), it is positioned at not overlapping with described small gear (P) second and specifies region, and the back side of described side gear (S) is exposed.

2. differential motion according to claim 1, is characterized in that,

At least one cover portion (C) described links at described oily holding part (7) place and described input block (I).

3. differential motion according to claim 1, is characterized in that,

Described a pair side gear (S) has the axle portion (Sj) be connected respectively with described a pair output shaft (A) integratedly, at least one cover portion (C) described has: shaft sleeve part (Cb), and it is in the described axle portion (Sj) of concentrically surrounding described side gear (S); And link arm (9), it is separated with described oily holding part (7) in the circumference of described input block (I) and radial direction along this input block (I) extends, and links between described shaft sleeve part (Cb) and described input block (I).

4. differential motion according to claim 2, is characterized in that,

Described a pair side gear (S) has the axle portion (Sj) be connected respectively with described a pair output shaft (A) integratedly, at least one cover portion (C) described has: shaft sleeve part (Cb), and it surrounds the described axle portion (Sj) of described side gear (S) with one heart; And link arm (9), it is separated with described oily holding part (7) in the circumference of described input block (I) and radial direction along this input block (I) extends, and links between described shaft sleeve part (Cb) and described input block (I).

5. differential motion according to claim 1, is characterized in that,

At least one cover portion (C) described has oily lead-in chamfered (f) at the described peripheral portion place emptying portion (8), and this oily lead-in chamfered (f) can guide lubricant oil to flow into the inner side of this input block (I) when described input block (I) rotates.

6. differential motion according to claim 2, is characterized in that,

At least one cover portion (C) described has oily lead-in chamfered (f) at the described peripheral portion place emptying portion (8), and this oily lead-in chamfered (f) can guide lubricant oil to flow into the inner side of this input block (I) when described input block (I) rotates.

7. differential motion according to claim 3, is characterized in that,

At least one cover portion (C) described has oily lead-in chamfered (f) at the described peripheral portion place emptying portion (8), and this oily lead-in chamfered (f) can guide lubricant oil to flow into the inner side of this input block (I) when described input block (I) rotates.

8. differential motion according to claim 4, is characterized in that,

At least one cover portion (C) described has oily lead-in chamfered (f) at the described peripheral portion place emptying portion (8), and this oily lead-in chamfered (f) can guide lubricant oil to flow into the inner side of this input block (I) when described input block (I) rotates.